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The Brazilian space program is the rocketry and space exploration programs conducted by Brazil from 1961, under GOCNAE (Group for the Organization of the National Commission on Space Activities) [1] [2] until the creation of the Brazilian Space Agency in 1994. It has significant capabilities in launch vehicles, launch sites, and satellite manufacturing. It is based at the National Institute for Space Research (INPE), under the Ministry of Science and Technology (MCT). Upon its founding the program was under complete military control, which hindered its development, as other countries (such as the United States) blocked technological development due to concerns over missile proliferation. In 1994, the space program was transferred to civilian control under the Brazilian Space Agency.[3]
History
editSince 1964, in an attempt to build a satellite launch vehicle (Veículo Lançador de Satélite--VLS), Brazil has developed a series of sounding (research) rockets, named Sonda I, II, III, and IV. The early Sondas were test-launched from Barreira do Inferno Launch Center, near the city of Natal in the Northeast Region. The Sonda IV rocket was tested successfully on April 28, 1989. Subsequent launches were made from the Alcântara Launch Center (Centro de Lançamento de Alcântara--CLA), in Maranhão, President José Sarney's home state. The CLA, officially dedicated on February 21, 1990, cost more than US$470 million to develop. It is the closest launch center to the equator in the world (2.3 degrees south of the equator), making it attractive for launches of geostationary satellites. Equatorial launches from Brazil may require 20% less fuel than launches from Kennedy Space Center, but Polar orbit launches would require more fuel.[4]
On February 9, 1993, the first satellite developed entirely in Brazil, the Data-Collecting Satellite (Satélite de Coleta de Dados—SCD-1), was launched. The SCD-1, sometimes referred to as the "green" satellite, is used by Brazilian National Institute for Space Research (INPE - Instituto Nacional de Pesquisas Espaciais) agencies. Both the SCD-1 The SCD-2, which was launched October 22, 1998, by a Pegasus rocket (a U.S. rocket), to collect environmental data.[5]
On July 6, 1988, Brazil signed an agreement with China that calls for the joint development (between the INPE and the Chinese Space Agency) of two earth-imaging satellites to be launched by a Long March Chinese rocket from the Shanxi Launching site. Known as the China–Brazil Earth Resources Satellite program (Satélite Sino-Brasileiro de Recursos Terrestres--CBERS), the high-resolution CBERS will collect data from the entire planet and will be used for agriculture, geology, hydrology, and the environment. The Sino-Brazilian agreement was inactive from 1988 through 1991 because of Brazil's lack of funds. In October 1991 and November 1994, Brazil and China signed an additional agreements for the construction of the satellites, worth US$150 million. The CBERS-1 was scheduled to be launched in May 1997.
Embratel, a formerly state-controlled communications company in charge of the Brazilian Satellite Communication System (Sistema Brasileiro de Comunicação por Satélites--SBTS), owns and operates a series of satellites that are positioned in geostationary orbit over the equator. Arianespace, a French space and defense partner of France's Aérospatiale group, launched the first two Brasilsat satellites in February 1985 and March 1986.
Until 1994, the military directed most of the space program through the Ministry of Aeronautics, which is in charge of the Department of Science and Aerospace Technology (CTA, for Ciência & Tecnologia Aeroespacial). Created in 1950, the CTA is involved in research and development for the aerospace programs of the FAB (Brazilian Air Force). In 1965 the FAB created the Space Activities Center (Instituto de Atividades Espaciais—IAE), one of several institutes within the CTA, to develop rockets. Since its creation, the IAE has tested more than 2,000 rockets.
In 1971, a joint civilian-military committee, the Brazilian Commission for Space Activities (Comissão Brasileira de Atividades Espaciais - Cobae), was established and placed under the CSN (National Security Council). Cobae was chaired by the head of the Armed Forces General Staff (Estado-Maior das Forças Armadas—EMFA) and was in charge of the Complete Brazilian Space Mission (Missão Espacial Completa Brasileira--MECB). The MECB was created in 1981 to coordinate launch vehicles, launch sites, and the manufacturing of satellites.
On the civilian side, the MECB is headed by the INPE. Established in 1971, the INPE replaced the National Commission for Space Activities (Comissão Nacional de Atividades Espaciais--CNAE). The INPE is subordinate to the Ministry of Science and Technology and roughly the CTA's counterpart. The INPE develops satellites and conducts space and meteorological research. It has also been developing engines using liquid propellants since 1988, but with mixed results.
Within Brazil's MECB, civilians have been primarily responsible for satellite production, and the armed forces have been in charge of developing launch pads and rockets. Despite this division of labor, the armed forces were the dominant actors in the MECB, at least through 1993. Military officers occupied most of the high-ranking positions in the MECB.
Brazilian Space Agency
editIn an attempt to place the MECB more firmly in the hands of civilians, Brazil's President Itamar Franco signed a bill on February 10, 1994, creating the Brazilian Space Agency (Agência Espacial Brasileira--AEB). The AEB replaced Cobae, which acted merely as an advisory body and had no staff. The AEB, a semi-autonomous agency, has its own staff and responsibilities for policy implementation. It is led by a civilian, who is under the direct control of the president. The AEB oversees the MECB, but the Ministry of Aeronautics is still in charge of launch facilities and launch vehicles, and the INPE continues to direct the development of satellites. It remains to be seen, therefore, whether the AEB can effectively oversee the various ministries involved in the MECB.
The AEB was created in part to deflect criticism from the United States government, which viewed with alarm the involvement of Brazil's military in the MECB. The United States played a central role in the development of Brazil's MECB, beginning with its financial and technological support for the CTA and the INPE. In 1966 the United States supplied sounding rockets, which were launched subsequently by Brazil. Based on that technology, Brazil later developed larger boosters of its own.
The ties between Brazil and the United States were generally along functional lines within the two governments. The United States National Aeronautics and Space Administration (NASA) worked with the INPE, sharing data, helping to develop and implement scientific experiments, and training the institute's technicians and scientists. Likewise, the United States Air Force worked with Brazil's Ministry of Aeronautics and established a number of data-exchange agreements with the CTA that covered such matters as weather forecasting.
Brazil no longer relies as heavily on the United States for space technology. In 1981, it unveiled the MECB, an ambitious US$1 billion program with the aim of attaining self-sufficiency in space technology. At that time, Brazil committed itself to launching a series of four Brazilian-made satellites (two for weather forecasting and two for terrain photography) from Alcântara.
In further moves away from dependence on the United States, in the 1980s Brazil took steps to become self-sufficient in the production of ammonium perchlorate, an oxidizer for solid fuels. In addition to its indigenous research and development, Brazil now cooperates in its space program with Canada, the European Space Agency (ESA), Russia, France, and especially China. One joint satellite project with China is the China–Brazil Earth Resources Satellite. Brazil is also seeking space cooperation with new partners, such as Israel.
In the mid-1980s through the early 1990s, many United States policy makers were concerned with Brazil's MECB because of the possibility of diverting space-launch technology to a ballistic missile program. Although by mid-1997 Brazil had not produced a ballistic missile, its military had given high priority to the development of several missile systems, including the Piranha missile (MAA-1). Brazil's space-launch program, coupled with its artillery rocket technology, suggests that the country has the potential to develop advanced missiles, including ballistic missiles.
From 1987 to 1994, the United States sought to stifle the development of Brazil's ballistic missile program through the Missile Technology Control Regime (MTCR—see Glossary), formed on April 16, 1987. Given Brazil's advanced nuclear program, the United States was especially concerned that a potential Brazilian ballistic missile could eventually serve as a vehicle for a nuclear warhead. The United States restrictions on space technology to Brazil stalled Brazil's VLS (Satellite Launch Vehicle) program and ballistic missile research and development, strained United States security relations with Brazil, and prompted Brazil to explore closer ties with China, Russia, and various countries in Europe and the Middle East (especially Iraq). In October 1995, for example, Brazil offered Russia the use of its Alcântara base, to launch rockets.
In February 1994, Brazil announced that it would comply with MTCR guidelines.[6] Such compliance would include export controls on Brazilian space and missile goods and technology. Brazil's accession to the MTCR coincided with various attempts by the United States to cooperate in space activities and seemed to signal a new era in space relations. Brazil's application for MTCR membership was accepted in October 1995. Thus, by the end of 1995 Brazil's space capabilities were improving, although they were modest by the standards of countries such as the United States and Russia. Some experts argued for the dismantlement of the VLS long-range rocket upon accession, in line with Argentina and South Africa discontinuing similar programs over weaponization concerns.[7]
Controversies
editIn 2011, Wikileaks revealed that the U.S. government has tried to stop the creation and production of rockets in Brazil, demanding that Brazilian partners, such as Ukraine, not transfer their technology in this area to the country. The restriction was registered in a telegram sent by the U.S.' Department of State to their embassy in Brasilia, January 2009, as follows:
"We do not support Brazil's native space launch vehicle program. ... We want to remind the Ukrainian authorities that the US does not oppose the establishment of a launching platform in Alcântara, as long as such activity does not result in the transfer of rocket technologies to Brazil."
The United States also does not allow the launch of US satellites (or those manufactured by other countries but containing US components) from the Alcantara Launch Center, "because of our longstanding policy of not encouraging Brazil's native rocket program", according to another confidential document released.[8]
Table of Launch Records
editBrazil Launch Record (1983 to present)[9] | |||
---|---|---|---|
Date | Launch Vehicle | Payload | Notes |
2 April 1993 | VS-40 PT-01 | Santa Maria | |
28 April 1997 | VS-30 XV-01 | DLR AL-VS30-223 | |
2 November 1997 | Satellite Launcher Vehicle-1 F1 | Brasil (Data Collection Satellite-2A) | Failure |
21 March 1998 | VS-40 PT-02 | Livramento (VAP 1) | |
15 March 1999 | VS-30 XV-04 | São Marcos | |
11 December 1999 | Satellite Launcher Vehicle-1 F2 | Almenara (SACI 2) | Failure |
6 February 2000 | VS-30 XV-05 | Lençóis Maranhenses | |
21 August 2000 | VS-30/Improved Orion V01 | Baronesa | |
9 December 2000 | Sonda 3 | XV-30 Alecrim (PSO) | |
12 May 2002 | Sonda 3 | XV-31 Parnamirim (F2Glow-2) | |
23 November 2002 | VS-30/Improved Orion V02 | Piraperna | |
1 December 2002 | VS-30 XV-06 | Cumã | |
22 August 2003 | Satellite Launcher Vehicle-1 F3 | São Luís (SATEC, Unosat, exploded during tests) | Failure |
24 October 2004 | VSB-30 V01 | Cajuana | |
19 July 2007 | VSB-30 V04 | Cumã II | |
16 December 2007 | VS-30 V07 | Angicos (GPS technology mission) | |
27 October 2008 | Improved Orion V01 | Parelhas | |
29 May 2009 | Improved Orion V02 | Maracati I | |
10 August 2009 | Basic Training Rocket V01 | FogTrein I Vôo 1 | |
13 August 2009 | Basic Training Rocket V02 | FogTrein I Vôo 2 | |
20 October 2009 | Basic Training Rocket V03 | FogTrein II Vôo 1 | |
21 October 2009 | Basic Training Rocket V04 | FogTrein II Vôo 2 | |
25 February 2010 | Basic Training Rocket V05 | Barreira I | |
27 April 2010 | Basic Training Rocket V06 | Falcão I | |
29 April 2010 | Basic Training Rocket V07 | Barreira II | |
26 July 2010 | Basic Training Rocket V08 | Fogtrein I-2010 Vôo 1 | |
3 August 2010 | FTI V01 | Fogtrein I-2010 Vôo 2 | |
26 August 2010 | Basic Training Rocket | Barreira III (cancelled) | Canceled |
20 September 2010 | Basic Training Rocket V09 | Fogtrein II-2010 Vôo 1 | |
30 September 2010 | FTI V02 | Fogtrein II-2010 Vôo 2 | |
6 December 2010 | Improved Orion V03 | Maracati II Vôo 1 | |
12 December 2010 | VSB-30 V07 | Maracati II Vôo 2 (MICROG 1A) | |
27 April 2011 | Basic Training Rocket V10 | Barreira IV | |
11 May 2011 | Improved Orion V04 | Camurupim | |
26 May 2011 | FTI V03 | Fogtrein I-2011 Vôo 1 | |
27 May 2011 | FTI V04 | Fogtrein I-2011 Vôo 2 | |
16 June 2011 | Basic Training Rocket V11 | Falcão I-2011 Vôo 1 | |
17 June 2011 | Basic Training Rocket V12 | Falcão I-2011 Vôo 2 | |
31 August 2011 | FTI V05 | Fogtrein II-2011 Vôo 1 | |
2 September 2011 | FTI V06 | Fogtrein II-2011 Vôo 2 | |
20 October 2011 | Basic Training Rocket F13 | Barreira V | |
25 November 2011 | Improved Orion V05 | Brasil-Alemanha Vôo 1 | |
2 December 2011 | VS-30 V08 | Brasil-Alemanha Vôo 2 | |
14 March 2012 | Basic Training Rocket V14 | Falcão I-2012 | |
29 March 2012 | Basic Training Rocket V15 | Valentim | |
24 May 2012 | Basic Training Rocket V16 | Águia I–2012 Fase 1 | |
29 May 2012 | Basic Training Rocket V17 | Águia I-2012 Fase 2 | |
21 June 2012 | Basic Training Rocket V18 | Barreira VI | |
8 August 2012 | Basic Training Rocket V19 | Falcão IV | |
19 September 2012 | Basic Training Rocket V20 | Barreira VII | |
27 September 2012 | Basic Training Rocket V21 | Falcão V | |
31 October 2013 | Basic Training Rocket V22 | Falcão VI | |
7 November 2012 | Basic Training Rocket V23 | Barreira VIII | |
13 November 2012 | FTI V07 | Tangará I | |
29 November 2012 | FTI V08 | Iguaíba Vôo 1 | |
8 December 2012 | VS-30/Improved Orion V10 | Iguaíba Vôo 2 (INPE 14) | |
13 March 2013 | Basic Training Rocket V24 | Barreira IX | |
23 May 2013 | Basic Training Rocket V25 | Falcão I-2013 | |
13 June 2013 | FTI V09 | Águia I-2013 | |
26 June 2013 | FTI V10 | Tangará I-2013 | |
8 August 2013 | Basic Training Rocket V26 | Falcão II-2013 | |
12 March 2014 | Basic Training Rocket V27 | Falcão I-2014 (AVIBRAS) | |
9 May 2014 | FTI V11 | Águia I-2014 | |
21 August 2014 | FTI V12 | Águia II-2014 | |
28 August 2014 | Basic Training Rocket V28 | Barreira X | |
2 September 2014 | VS-30 V13/Estágio Propulsivo Líquido | L5 Raposa (Estágio Propulsivo Líquido-ME) | |
2 October 2014 | Basic Training Rocket V29 | Barreira XI (do Inferno) | |
10 December 2014 | Basic Training Rocket V30 | Barreira XII (XII Jornada Espacial) | |
13 November 2015 | VS-40M V03 | São Lourenço (Satellite Atmospheric Reentry-Sub 1) | Failure |
9 December 2018 | VS-30 V14 | PSR 1 | |
25 June 2020 | Basic Training Rocket | Falcão I-2020 | |
October 2020 | VSB-30 V32 | Cruzeiro (Hypersonic Accelerator Vehicle, Scramjet 14-X S1 Demonstrator) | Date Changed |
2020 | VS-50 | Dummy Payload (Test Flight) | Date Changed, Test Flight |
2020 | TBD | Amazônia-1B (Remote Sensing Satellite-1B) | |
TBD | TBD | GEOMET 1 | |
2021 | VS-50 | Hexafly-INT | |
28 February 2021 | PSLV C51 (Índia) | Amazonia 1 | Successful launch |
2022 | VSB-30 | Hypersonic Accelerator Vehicle (Scramjet 14-X S2 Demonstrator) | |
2022 | Microsatellite Launch Vehicle-1 (XVT-00) | Dummy Payload (Test Flight) | Test Flight |
2023 | TBD | Carponis 1 (Óptico) | |
2023 | TBD | LATTES 1 (Equatorial Atmosphere Research Satellite, Monitor e Imageador de Raios-X) | Date Changed |
2023 | VLX/Aquila 1 | TBD | Test Flight? |
2023 | TBD | Amazônia-2 (Remote Sensing Satellite-2) | |
2023 | TBD | Carponis 2 (Óptico Nacionalizado) | |
2024 | TBD | SABIA-Mar 1 (SAC E)[10] | |
2024 | TBD | Atticora (Comunicaçöes Táticas) | |
2025 | TBD | Lessonia 1 | |
2026 | Aquila 2 | TBD | |
2026 | TBD | Radar | |
2020s | TBD | SABIA-Mar 2 | |
2020s | Microsatellite Launch Vehicle-1 V-01 | SHEFEX 3 |
Brazilian Satellites
edit- BrasilSat B1, Coverage
- BrasilSat B2, Coverage
- BrasilSat B3, Coverage
- BrasilSat B4, Coverage
- BrasilSat A2, USA Coverage
- Star One C1, launched on November 14, 2007, Band C Coverage, Band Ku Coverage, Band Ku Coverage – Mercosul
See also
editReferences
edit- ^ "Development of the Brazilian Space Program".
- ^ Darling, David. "space agencies". www.daviddarling.info. Retrieved 11 October 2023.
- ^ "The Brazilian space program - Space Legal Issues". Retrieved 17 March 2021.
- ^ Sheetz, Michael. "Brazil's Alcantara: Why are Boeing, Lockheed Martin, Vector interested". Retrieved 26 April 2021.
- ^ Pike, John. "Sat?te de Coleta de Dados - SCD". Retrieved 29 April 2021.
- ^ "NPT 3.3: Brazil's Accession to the MTCR - bowen33.pdf" (PDF). Retrieved 24 April 2021.
- ^ Time, Which. "Missile Proliferation - Brazil". Retrieved 24 April 2021.
- ^ "EUA tentaram impedir programa brasileiro de foguetes, revela WikiLeaks". O Globo (in Brazilian Portuguese). 25 January 2011. Retrieved 26 December 2019.
- ^ Pietrobon, Steven. "Brazil Launch Record". Retrieved 29 April 2021.
- ^ "Revisión de hitos constructivos entre CONAE e INVAP para la misión SABIA-Mar" [Review of construction milestones between CONAE and INVAP for the SABIA-Mar mission]. CONAE (in Spanish). MINCYT. 17 October 2022. Retrieved 14 December 2022.